Hey all
since a few years i researched and tested Stan's resonance circuit. I like the idea using resonance in order to split hydrogen from oxygen.
I found a lot university documents where there are describing resonance of objects and few of them from water.
Currently there are 5 kinds of calculation models ( Lyman, Balmer, Paschen, Brackett and Pfund ) for HHO resonance and there are pointing to 3200-3600Hz. It's depending on the water quality and temperature. I have attached some documents i found about it. Unfortunately this documents are in german but you can understand the graphic's so far you can't read german.
With this information and analyse of the circuit i created a new one:
- I use two independend power source, one 12V powersupply for the controller and one 12-24V notebook powersupply. It's a generic notebook powersupply where you can switch the output voltage. With this it makes the circuit more safety and flexible.
- I use 3 ne555 timers -> Main Clock -> Boost Clock -> Chopp Clock
- I use a inductor coil to convert the input voltage into high voltage
- To test different MOSFET's in practise i use screw terminal to replace them without soldering
The circuit has been created and tested with Labcenter Proteus, this is a great program and saves a lot of time !!
Attached you will find the circuit, my build version of the circuit and the pdf's reference.
Enjoy the time and if you have any questions, ask !
!!!!! BE CAREFUL WITH HIGH VOLTAGE !!!!! ALWAYS CHECK TWICE !!!!!!
!!!!! >>>>>> NEVER USE THE CIRCUIT WITHOUT LOAD -> DANGEROUS <<<<<< !!!!!
since a few years i researched and tested Stan's resonance circuit. I like the idea using resonance in order to split hydrogen from oxygen.
I found a lot university documents where there are describing resonance of objects and few of them from water.
Currently there are 5 kinds of calculation models ( Lyman, Balmer, Paschen, Brackett and Pfund ) for HHO resonance and there are pointing to 3200-3600Hz. It's depending on the water quality and temperature. I have attached some documents i found about it. Unfortunately this documents are in german but you can understand the graphic's so far you can't read german.
With this information and analyse of the circuit i created a new one:
- I use two independend power source, one 12V powersupply for the controller and one 12-24V notebook powersupply. It's a generic notebook powersupply where you can switch the output voltage. With this it makes the circuit more safety and flexible.
- I use 3 ne555 timers -> Main Clock -> Boost Clock -> Chopp Clock
- I use a inductor coil to convert the input voltage into high voltage
- To test different MOSFET's in practise i use screw terminal to replace them without soldering
The circuit has been created and tested with Labcenter Proteus, this is a great program and saves a lot of time !!
Attached you will find the circuit, my build version of the circuit and the pdf's reference.
Enjoy the time and if you have any questions, ask !
!!!!! BE CAREFUL WITH HIGH VOLTAGE !!!!! ALWAYS CHECK TWICE !!!!!!
!!!!! >>>>>> NEVER USE THE CIRCUIT WITHOUT LOAD -> DANGEROUS <<<<<< !!!!!